JP6484270B2 - Measuring apparatus and measuring method - Google Patents

Description

  The present invention relates to a measuring apparatus and a measuring method for measuring a device under measurement using, for example, a wireless communication technique.

  Conventionally, a test system for testing a wireless data packet transceiver as a device under measurement is known as this type of measurement device (see, for example, Patent Document 1).

  The conventional device described in Patent Document 1 includes a transmitter, a receiver, and a controller / processor, and tests a device under measurement.

  The controller / processor controls the transmitter and receiver so that a predetermined number of valid data packets are received from the device under test, a predetermined time interval elapses, or a predetermined number of data transfers. Until a valid data packet at a rate is received from the device under test, transmission of returning an acknowledgment signal is suppressed.

  With this arrangement, the prior art can reduce the time required to perform a test without removing the necessary steps or without compromising the integrity of the test.

Special table 2014-504053 gazette

  However, in the conventional case, for example, when the wireless connection is disconnected during the interconnection sequence with the device under test, in order to investigate the cause, all the communication frames transmitted / received to / from the device under test are captured. Therefore, it is necessary to perform a complicated process of decoding and analyzing the file after saving the file. Therefore, there has been a demand for a measuring device that allows the user to easily grasp the state of wireless communication with the device under measurement.

  The present invention has been made in view of the circumstances as described above, and an object of the present invention is to provide a measurement apparatus and a measurement method that allow a user to easily grasp a wireless communication state with a device under measurement.

The measuring apparatus according to claim 1 of the present invention comprises a wireless communication means (12) for performing wireless communication with at least one device under measurement (1 to 3), and data from the device under measurement via the wireless communication means. And measuring means (13) for measuring the device under test based on the data, and the predetermined state on condition that the connection state of the wireless communication has changed to a predetermined state. Information acquisition means (22, 24) for acquiring state change related information including information to be displayed and information on the address of the other party of the wireless communication, and a predetermined display device ( 15) display control means (14) for performing real-time display control, and the information acquisition means (22) is capable of acquiring connection state information indicating a connection state of the wireless communication, and Control hand Has a configuration which performs control for displaying the connection state information in real time.

With this configuration, the measurement apparatus according to claim 1 of the present invention is provided for each device under measurement on the condition that the connection state of the wireless communication with the device under measurement is detected to have changed to a predetermined state. Since the state change related information is displayed on the display device in real time, the wireless communication state with the device under measurement can be easily grasped by the user. Also, with this configuration, the measurement apparatus according to claim 1 of the present invention acquires connection state information indicating the connection state of wireless communication and displays it in real time, so that the user can easily determine the state of wireless communication with the device under measurement. Can be grasped.

  In the measuring apparatus according to claim 2 of the present invention, the predetermined state is a state in which the wireless communication connection is disconnected, and the information acquisition means (24) detects that the wireless communication connection is disconnected. Information indicating the reason for disconnection of the connection, information on the connection state immediately before disconnection indicating the connection state immediately before disconnection, and information on the partner address connected immediately before the disconnection, The cutting-related information is acquired as the state change-related information, and the display control means performs control for displaying the cutting-related information in real time for each device to be measured in which the cutting is detected. It has a configuration.

  With this configuration, the measurement device according to claim 2 of the present invention provides the disconnection-related information for each device to be measured for which disconnection has been detected on condition that the disconnection of the wireless communication connection with the device to be measured has been detected. Since the display is made in real time, the user can easily grasp the wireless communication state with the device under measurement.

The measuring apparatus according to claim 3 of the present invention has a configuration in which the information acquisition means (22) acquires data rate information in the wireless communication by including it in the connection state information . With this configuration, the measurement apparatus according to claim 3 of the present invention acquires and displays information on the data rate in wireless communication, which is preferable for measurement of a device under measurement whose data rate changes during wireless communication.

The measuring apparatus according to claim 4 of the present invention has a configuration in which the display control means performs control for floating display of the state change related information on a predetermined display screen. With this configuration, the measuring device according to claim 4 of the present invention can display the state change related information while displaying the measurement condition and the measurement result, so that the visibility of the measurement condition and the measurement result can be displayed. It can be improved and is preferable .

The measurement method according to claim 5 of the present invention includes a wireless communication step (S12) for performing wireless communication with at least one device under measurement (1 to 3), and receiving data from the device under measurement in the wireless communication step. And measuring step (S15) for measuring the device under test based on the data, and information indicating the predetermined state on condition that the connection state of the wireless communication has changed to a predetermined state. And information acquisition step (S19, S21) for acquiring state change related information including information on the other party address of the wireless communication, and a predetermined display device (15) for displaying the state change related information for each of the devices to be measured. Display control steps (S20, S22) for performing display in real time, and the information acquisition step includes connection state information indicating a connection state of the wireless communication A possible acquisition, wherein the display control step includes a configuration for performing control to display the connection status information in real time. With this configuration, the measurement method according to claim 5 of the present invention provides the state change related information on the condition that the connection state of the wireless communication with the device under test is detected to have changed to a predetermined state. Is displayed on the display device in real time, so that the user can easily grasp the wireless communication state with the device under measurement. Also, with this configuration, the measurement method according to claim 5 of the present invention acquires connection state information indicating the connection state of wireless communication and displays it in real time, so that the user can easily determine the state of wireless communication with the device under measurement. Can be grasped.

In the measurement method according to claim 6 of the present invention, the predetermined state is a state in which the wireless communication connection is disconnected, and the information acquisition step (S19, S21) includes the step of disconnecting the wireless communication connection. On the condition that it has been detected, information indicating the reason for disconnection of the connection, information on the connection state immediately before disconnection indicating the connection state immediately before the disconnection, information on the partner address connected immediately before the disconnection, and , And the display control step performs control for displaying the cutting-related information in real time for each of the devices to be measured in which the cutting is detected. It has the composition which is. With this configuration, the measurement method according to claim 6 of the present invention provides the disconnection-related information for each device to be measured for which disconnection has been detected on condition that the disconnection of the wireless communication with the device to be measured has been detected. Since the display is made in real time, the user can easily grasp the wireless communication state with the device under measurement.

The measurement method according to claim 7 of the present invention has a configuration in which the information acquisition step acquires data rate information in the wireless communication by including it in the connection state information.

With this configuration, the measurement method according to claim 7 of the present invention acquires and displays information on the data rate in wireless communication, which is preferable for measurement of a device under measurement whose data rate changes during wireless communication.

The measurement method according to an eighth aspect of the present invention has a configuration in which the display control step performs control for floating display of the state change related information on a predetermined display screen.

With this configuration, the measurement method according to claim 8 of the present invention can display state change related information while displaying measurement conditions and measurement results, so that visibility of measurement conditions and measurement results can be displayed. It can be improved and is preferable.

  The present invention can provide a measuring apparatus and a measuring method having an effect that the user can easily grasp the wireless communication state with the device under measurement.

It is a block block diagram in one Embodiment of the measuring apparatus which concerns on this invention. It is a figure which shows an example in which the connection state of the radio | wireless communication between transmission / reception parts and DUT changes in one Embodiment of the measuring apparatus which concerns on this invention. It is a figure which shows that the measurement apparatus wirelessly communicated with each DUT sequentially in one Embodiment of the measurement apparatus which concerns on this invention. It is a figure which shows an example of the cutting relevant information at the time of cutting | disconnection in one Embodiment of the measuring apparatus which concerns on this invention. It is a flowchart in one Embodiment of the measuring apparatus which concerns on this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  First, the configuration of an embodiment of the measuring apparatus according to the present invention will be described.

  As shown in FIG. 1, the measurement apparatus 10 in the present embodiment performs wireless communication with DUTs 1 to 3 as a device under measurement and measures transmission characteristics and reception characteristics of the DUTs 1 to 3. Note that the number of devices to be measured is not limited to three and may be one or more.

  The measurement apparatus 10 includes a transmission data generation unit 11, a transmission / reception unit 12, a measurement unit 13, a communication monitoring unit 20, a display control unit 14, and a display unit 15. The measuring apparatus 10 includes a microcomputer including a CPU, a ROM, a RAM, an input / output circuit to which various interfaces are connected, and the like. The measuring apparatus 10 causes a microcomputer to function as each functional unit of the measuring apparatus 10 by executing a control program stored in advance in a ROM.

  The transmission data generation unit 11 includes a signal generator that generates data of a predetermined signal pattern, for example, in order to perform reception measurement for evaluating the reception performance of the DUT 1. The transmission / reception unit 12 packetizes data of a predetermined signal pattern in accordance with an instruction signal from an operation unit (not shown) operated by the user, transmits the packet to the DUT 1, and receives a response signal from the DUT 1. The same applies to DUTs 2 and 3.

  The transmission / reception unit 12 includes a transmission unit 12a and a reception unit 12b, and establishes a wireless communication connection with the DUTs 1 to 3 based on, for example, a communication standard compliant with IEEE802.11. Moreover, the transmission / reception part 12 transmits / receives the various data regarding a measurement with respect to DUT 1-3 after establishment of a wireless communication connection. The transmission / reception unit 12 is an example of a wireless communication unit.

  Although not shown, the transmission unit 12a includes a modulation circuit, a DAC (digital analog converter), an up-converter, a transmission antenna, and the like, and performs digital modulation, up-conversion, and the like on the transmission data generated by the transmission data generation unit 11. The process is performed and transmitted to the DUTs 1 to 3 via the transmission antenna.

  Although not shown, the reception unit 12b includes a reception antenna, a down converter, an ADC (analog / digital converter), a demodulation circuit, and the like, receives signals from the DUTs 1 to 3 via the reception antenna, and performs down conversion processing and demodulation. By performing processing and the like, the measurement target data received from the DUTs 1 to 3 are output to the measurement unit 13.

  The measurement unit 13 inputs the measurement target data of the DUTs 1 to 3 received by the reception unit 12b, and the transmission characteristics of the DUTs 1 to 3 based on the measurement conditions set by the user operating the operation unit (not shown). The reception characteristic is measured, and the measurement result data is output to the display control unit 14. The measurement unit 13 is an example of a measurement unit.

  Specifically, the measurement unit 13 can measure, for example, transmission power, EVM (Error Vector Magnitude), constellation, and the like as the transmission characteristics of the DUTs 1 to 3. The measurement unit 13 can measure, for example, reception sensitivity, frame error rate, and the like as the reception characteristics of the DUTs 1 to 3. The measurement unit 13 is an example of a measurement unit.

  The communication monitoring unit 20 is connected to the transmission / reception unit 12 and monitors wireless communication between the transmission / reception unit 12 and the DUTs 1 to 3 by receiving polling or an event. The communication monitoring unit 20 includes a connection state change detection unit 21, a connection state information acquisition unit 22, a disconnection detection unit 23, a disconnection related information acquisition unit 24, and a monitoring memory 25.

  The connection state change detection unit 21 detects whether or not the connection state of wireless communication between the transmission / reception unit 12 and the DUTs 1 to 3 has changed to a predetermined state.

  The connection state information acquisition unit 22 includes information indicating a predetermined state and information on a partner address for wireless communication on condition that the connection state change detection unit 21 detects that the connection state change detection unit 21 has changed to a predetermined state. Change related information is acquired. In addition, the connection state information acquisition unit 22 is configured to display, for example, the connection state on the measurement apparatus 10 side, information on the partner address being connected, the data rate, and the like during wireless communication connection between the transmission / reception unit 12 and the DUTs 1 to 3. To get. The connection state information acquisition unit 22 is an example of an information acquisition unit.

  The disconnection detection unit 23 detects disconnection of the wireless communication connection between the transmission / reception unit 12 and the DUTs 1 to 3.

  The disconnection-related information acquisition unit 24 refers to a log stored in the monitoring memory 25 when the disconnection detection unit 23 detects disconnection of a wireless communication connection, and acquires information related to the disconnection. . The cutting related information acquisition unit 24 is an example of an information acquisition unit.

  The monitoring memory 25 stores a log of messages exchanged between the transmission / reception unit 12 and the DUTs 1 to 3 in time series.

  The display control unit 14 performs display control of predetermined information displayed on the display unit 15. In addition, the display control unit 14 includes a floating display unit 14 a that performs display control for floating display of predetermined information on the display unit 15. The display control unit 14 is an example of a display control unit.

  The display unit 15 displays predetermined information according to the display control of the display control unit 14. The display unit 15 is an example of a display device.

  Next, each function of the connection state change detection unit 21, the connection state information acquisition unit 22, the disconnection detection unit 23, and the disconnection related information acquisition unit 24 included in the communication monitoring unit 20 will be specifically described with reference to FIG. FIG. 2 shows an example in which the connection state of wireless communication between the transmission / reception unit 12 and the DUTs 1 to 3 transitions.

  The connection state change detection unit 21 detects each state shown in FIG. That is, the connection state change detection unit 21 changes from the idle state to the authentication completion state where the authentication is completed, then to the connection establishment state where the connection is established, and further to the data reception completion state where the reception of the measurement target data from the DUT is completed. Each state is detected when a transition is made.

  For example, when the connection completion state detection unit 21 detects the authentication completion state illustrated in FIG. 2, the connection state information acquisition unit 22 includes information indicating that the authentication completion state has been changed, and the wireless communication partner address. And state change related information including information. In addition, the connection state information acquisition unit 22 performs the connection state and connection on the measurement device 10 side in wireless communication with the DUT during each state illustrated in FIG. 2, for example, between the connection establishment state and the data reception completion state. Information on the other party's address, data rate, etc. are acquired.

  The disconnection detector 23 detects disconnection of the wireless communication connection shown in parentheses in FIG. Specifically, a disconnection state in which the wireless communication connection is disconnected for some reason may occur between the authentication completion state and the connection establishment state, and between the connection establishment state and the data reception completion state, respectively. . The cutting | disconnection detection part 23 detects these cutting | disconnection states.

  The disconnection-related information acquisition unit 24 refers to a log stored in the monitoring memory 25 on the condition that the disconnection detection unit 23 detects disconnection of the wireless communication connection, and information indicating the reason for disconnection of the connection, Disconnection-related information including information on a connection state immediately before disconnection indicating a connection state immediately before disconnection is acquired.

  Each state shown in FIG. 2 is an example, and can be arbitrarily determined in advance by the user. Other states not shown in FIG. 2, for example, an authentication start state, an authentication in progress state, an authentication failure state, a connection in progress state, a connection establishment failure state, etc. may be defined.

  Next, a case where disconnection of wireless communication is detected by the disconnection detection unit 23 of the communication monitoring unit 20 will be described with reference to FIGS. 3 and 4.

  FIG. 3 shows that the measurement apparatus 10 wirelessly communicates sequentially with DUT1, DUT2, DUT3, and DUT1. Also, FIG. 3 shows that during the initial wireless communication with DUT1, wireless communication with DUT2, and wireless communication with DUT3, some cause occurred and the wireless communication was disconnected. Yes. In FIG. 3, the wireless communication shown at the top is the oldest, and the wireless communication shown at the bottom is the newest.

  The communication monitoring unit 20 acquires information on the state of connection and the reason for disconnection by polling the transmission / reception unit 12 or receiving an event.

  Specifically, when disconnection of the wireless communication is detected by the disconnection detection unit 23 of the communication monitoring unit 20, the disconnection related information acquisition unit 24 refers to a log stored in the monitoring memory 25, for example, FIG. The cutting related information 31 to 34 as the state change related information at the time of cutting as shown in FIG. The cutting-related information 31 to 34 illustrated in FIG. 4 is information displayed on the display unit 15 by the display control of the display control unit 14.

  As shown in FIG. 4, the disconnection-related information 31 to 34 indicates the time when disconnection of wireless communication occurs, the connection destination address (partner address) connected immediately before disconnection, and the connection state immediately before disconnection before disconnection. It contains information on the final state, disconnect reason, and data rate. In FIG. 4, the cutting-related information 31 shown at the bottom is the oldest, and the cutting-related information 34 shown at the top is the newest. The DUTs indicated by the connection destination addresses in the disconnection related information 31 to 34 are DUT1, DUT2, DUT3, and DUT1, respectively.

  The disconnection related information 31 indicates that wireless communication with the DUT 1 is disconnected at the displayed time. The final state at that time is “Connected”, which indicates that the wireless communication connection with the DUT 1 was established immediately before disconnection. Also, the reason for disconnection is “Deauthentication by Tester”, which indicates that wireless communication has been disconnected by the disconnection notification from the measurement apparatus 10.

  The disconnection related information 32 indicates that wireless communication with the DUT 2 was disconnected at the displayed time. The final state at that time is “Connected”, which indicates that the wireless communication connection with the DUT 2 was established immediately before disconnection. The reason for disconnection is “Disassociation by DUT”, which indicates that the wireless communication is disconnected by DUT 2.

  The disconnection related information 33 indicates that wireless communication with the DUT 3 was disconnected at the displayed time. The final state at that time is “Authenticated”, which indicates that the authentication process with the DUT 3 has been completed immediately before disconnection. The disconnection reason is “Connection refusal by DUT”, which indicates that the connection is rejected by the DUT 3.

  The disconnection related information 34 indicates that after the wireless communication with the DUT 3 is disconnected, the wireless communication connection with the DUT 1 is established again, and the wireless communication with the DUT 1 is disconnected at the displayed time. The final state at that time is “Connected”, which indicates that the wireless communication connection with the DUT 1 was established immediately before disconnection. Also, the reason for disconnection is “Deauthentication by Tester”, which indicates that wireless communication has been disconnected by the disconnection notification from the measurement apparatus 10.

  In the column of data rate, the data rate between the DUT and the measuring apparatus 10 during wireless communication is displayed in real time in a state where the wireless communication is connected. Here, the state after disconnection is shown. As a result, the data rate column is blank. In a state where the wireless communication is connected, the information of each state acquired by the connection state information acquisition unit 22 including the display of the data rate is updated each time it is detected by the connection state change detection unit 21. Are displayed in sequence.

  Moreover, it is preferable that the display control part 14 carries out the floating display of the cutting | disconnection relevant information 31-34 shown in FIG. 4 on the numerical information and graph which show a measurement result by the floating display part 14a. By displaying in a floating manner, the measurement apparatus 10 can display the cutting-related information 31 to 34 while displaying the measurement conditions and measurement results on the display unit 15, thereby improving the visibility of the display of the measurement conditions and measurement results. This is preferable.

  As described above, as illustrated in FIG. 4, the measurement apparatus 10 according to the present embodiment displays the disconnection related information 31 to 34 when the disconnection of the wireless communication is detected, thereby wirelessly connecting to the DUT. The user can easily grasp the reason for the disconnection. In addition, when wireless communication is connected, the measurement apparatus 10 according to the present embodiment displays information on each state of wireless communication, a data rate, and the like so that the user can easily grasp the information. Can do.

  Next, operation | movement of the measuring apparatus 10 in this embodiment is demonstrated using the flowchart of FIG.

  The transmission / reception unit 12 selects one of the DUTs 1 to 3 in accordance with an instruction signal from an operation unit (not shown) operated by the user (step S11).

  The transmission / reception unit 12 starts wireless communication with the selected DUT (referred to as DUT1) based on, for example, a communication standard compliant with IEEE 802.11 (step S12).

  The communication monitoring unit 20 monitors wireless communication between the transmission / reception unit 12 and the DUT 1, and the connection state change detection unit 21 determines whether or not the connection state of the wireless communication has changed to a predetermined state. (Step S13).

  If it is not determined in step S13 that the wireless communication connection state has changed, the receiving unit 12b determines whether or not measurement data for measuring the transmission characteristics of the DUT 1, for example, has been received (step S14). ).

  If it is not determined in step S14 that the measurement data has been received, the process returns to step S12.

  If it is determined in step S14 that the measurement data has been received, the measurement unit 13 measures the measurement data received by the reception unit 12b (step S15).

  The display control unit 14 performs display control for displaying the measurement result obtained by the measurement unit 13 on the display unit 15, and the display unit 15 displays the measurement result according to the display control of the display control unit 14 (step S16).

  The transmission / reception unit 12 determines whether to change the DUT 1 to another DUT according to an instruction signal from an operation unit (not shown) operated by the user (step S17).

  If it is determined in step S17 that the DUT is to be changed, the process returns to step S11. If it is not determined that the DUT is to be changed, the process is terminated.

  If it is determined in step S13 described above that the wireless communication connection state has changed, the disconnection detection unit 23 determines whether or not the wireless communication connection has been disconnected (step S18).

  If it is determined in step S18 that the wireless communication connection has been disconnected, the disconnection related information acquisition unit 24 refers to the log stored in the monitoring memory 25 to acquire disconnection related information (step S19). ) And output the cutting-related information to the display control unit 14.

  The display control unit 14 performs control to display the input cutting related information on the display unit 15 (step S20). As a result, for example, cutting-related information as shown in FIG.

  If it is not determined in step S18 that disconnection of the wireless communication has occurred, that is, in the state where the wireless communication is connected, the connection is made instead of the disconnection related information as shown in FIG. Information on each state detected by the state change detection unit 21 is acquired as state change related information (step S21). The acquired state change related information is output to the display control unit 14.

  The display control unit 14 performs control to display the input state change related information on the display unit 15 (step S22). As a result, the measurement apparatus 10 can make the user easily grasp information on each state, data rate, and the like in a state where wireless communication is connected. In particular, displaying the data rate in a state where the wireless communication is connected is preferable for measuring the DUT in which the data rate changes during the wireless communication.

  As described above, the measurement apparatus 10 according to this embodiment displays the state change related information on the display unit 15 on the condition that the connection state of the wireless communication with the DUT is detected to be changed to a predetermined state. In real time, the user can easily grasp the wireless communication state with the DUT.

  In particular, the measurement apparatus 10 in the present embodiment displays the disconnection-related information in real time for each DUT in which disconnection is detected in a state where the connection of the wireless communication with the DUT is disconnected, so the wireless communication with the DUT is disconnected. The user can easily understand the reason.

  As described above, the measuring device and the measuring method according to the present invention have an effect that the user can easily grasp the wireless communication state with the device under measurement. For example, the device under measurement using wireless communication technology is provided. It is useful as a measuring device and a measuring method for measuring

1-3 DUT (device under test)
DESCRIPTION OF SYMBOLS 10 Measuring apparatus 11 Transmission data generation part 12 Transmission / reception part (wireless communication means)
12a transmitter 12b receiver 13 measuring unit (measuring means)
14 Display control unit (display control means)
14a Floating display section 15 Display section (display device)
20 Communication monitoring unit (wireless communication monitoring means)
21 connection state change detection unit 22 connection state information acquisition unit (information acquisition unit)
23 cutting detection unit 24 cutting related information acquisition unit (information acquisition means)
25 Monitoring memory 31-34 Disconnection related information

Claims (8)

Wireless communication means (12) for performing wireless communication with at least one device under test (1 to 3);
Measurement means (13) for receiving data from the device under measurement via the wireless communication means and measuring the device under measurement based on the data;
On the condition that the connection state of the wireless communication has changed to a predetermined state, the state change related information including the information indicating the predetermined state and the information of the partner address of the wireless communication is acquired. Information acquisition means (22, 24);
Display control means (14) for performing control to display the state change related information on a predetermined display device (15) in real time for each device under measurement;
Equipped with a,
The information acquisition means (22) can acquire connection state information indicating a connection state of the wireless communication,
The measurement apparatus characterized in that the display control means controls to display the connection state information in real time . The predetermined state is a state in which the wireless communication connection is disconnected,
The information acquisition means (24) is configured to provide information indicating a reason for disconnecting the connection and a connection state immediately before disconnection indicating a connection state immediately before disconnection on condition that the disconnection of the wireless communication is detected. Information related to disconnection including information and information on the address of the other party connected immediately before the disconnection is acquired as the state change related information,
The measurement apparatus according to claim 1, wherein the display control unit performs control to display the cutting-related information in real time for each of the devices to be measured in which the cutting is detected. The information acquisition means (22), measuring device according to claim 1 or claim 2, wherein the information data rate is to get included in the connection state information in the radio communication. The measurement apparatus according to any one of claims 1 to 3 , wherein the display control means performs control for floating display of the state change related information on a predetermined display screen. . A wireless communication step (S12) for performing wireless communication with at least one device under test (1 to 3);
A measurement step (S15) for receiving data from the device under test in the wireless communication step and measuring the device under test based on the data;
On the condition that the connection state of the wireless communication has changed to a predetermined state, the state change related information including the information indicating the predetermined state and the information of the partner address of the wireless communication is acquired. Information acquisition step (S19, S21);
A display control step (S20, S22) for performing a control for displaying the state change related information on a predetermined display device (15) in real time for each device under measurement;
Including
The information acquisition step can acquire connection state information indicating a connection state of the wireless communication,
The display control step performs control for displaying the connection state information in real time . The predetermined state is a state in which the wireless communication connection is disconnected,
In the information acquisition step (S19, S21), on condition that disconnection of the wireless communication is detected, information indicating the reason for disconnection of the connection and connection immediately before disconnection indicating the connection state immediately before the disconnection are performed. The disconnection related information including the information on the state and the information on the other party address connected immediately before the disconnection is acquired as the state change related information,
The measurement method according to claim 5, wherein the display control step performs control for displaying the cutting-related information in real time for each of the devices to be measured in which the cutting is detected . The measurement method according to claim 5 or 6, wherein the information acquisition step includes acquiring data rate information in the wireless communication by including the connection state information. The measurement method according to claim 5, wherein the display control step performs control for floatingly displaying the state change related information on a predetermined display screen. .

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